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Professor Glezer's research interests focus on the manipulation and control of shear flows in a broad range of applications, including reacting and nonreacting mixing processes, enhancement of the aerodynamic performance of airborne and underwater vehicles, small-scale combustion-driven power systems, jet thrust vectoring and noise reduction, fluidic-driven heat transfer with an emphasis on electronic cooling, fluid atomization, and the development of novel fluidic actuator technologies including microelectromechanical systems based (MEMS) actuators.
His current research projects include the development of a centimeter-scale reciprocating pulse-bombustion-driven MEMS-based microgenerator to replace batteries in portable electronic hardware; the demonstration of robust micromachined jet actuators technology and its application in unmanned airborne vehicles or micro-unmanned airborne vehicle platforms; aerodynamic modification of lifting surfaces of a class of unmanned airborne vehicles; the direct, small-scale control of fuel-air mixing in a "smart" highperformance turbine; thermal management in electronic packaging using fluidic forced convection heat transfer; optical phase correction in free shear flows using neural networks, optoelectronic image processing, and global optical flow diagnostics; heat transfer enhancement in a thermally-driven boundary layer along a heated surface; fluid mechanics of the through-hole plating of printed circuit boards; and vibration-induced fluid atomization for two-phase cooling and coating applications.
His current research projects include the development of a centimeter-scale reciprocating pulse-bombustion-driven MEMS-based microgenerator to replace batteries in portable electronic hardware; the demonstration of robust micromachined jet actuators technology and its application in unmanned airborne vehicles or micro-unmanned airborne vehicle platforms; aerodynamic modification of lifting surfaces of a class of unmanned airborne vehicles; the direct, small-scale control of fuel-air mixing in a "smart" highperformance turbine; thermal management in electronic packaging using fluidic forced convection heat transfer; optical phase correction in free shear flows using neural networks, optoelectronic image processing, and global optical flow diagnostics; heat transfer enhancement in a thermally-driven boundary layer along a heated surface; fluid mechanics of the through-hole plating of printed circuit boards; and vibration-induced fluid atomization for two-phase cooling and coating applications.
研究兴趣
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PHYSICS OF FLUIDSno. 1 (2023)
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER (2023): 124574-124574
AIAA SCITECH 2023 Forum (2023)
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JOURNAL OF PROPULSION AND POWER (2023)
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Experimental Thermal and Fluid Science (2023): 110975-110975
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AIAA SCITECH 2022 Forum (2022)
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